Volumetric blood flow velocity measurement with multigate pulsed Doppler system using single-channel RF sampling

C. Lim, J. Remeniéras, A. Roncin, M. Berson
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Abstract

Presents the performances of a new Doppler system using single channel RF sampling. The conventional quadrature method in Doppler imaging system has to use a minimum of two identical parallel demodulation channels to reconstruct the multigate analytic Doppler signal. However, this system suffers from hardware complexity and the problem of unbalance (gain and phase) between the channels. In order to reduce these problems, the authors realize a multigate pulsed Doppler system using undersampling on a single channel. It requires a sampling frequency at 4f/sub a/ and a 12 bits A/D converter. The proposed "Single-Channel RF Sampling" method aims to decrease the required sampling frequency proportionally to 4f/sub a//(2k+1). To show the influence of the factor k on the measurements, the authors compare the velocity profiles obtained in vitro and in vivo for different intersequence delay times (k=0 to 10). The authors have used a 4 MHz center frequency transducer. For experiments in vitro, on a phantom Doppler system, axial and volumetric velocity profiles in the vessel have been computed according to factor k and have been compared. The influence of the angle between the ultrasonic beam and the flow axis direction, and of the fluid viscosity on the velocity profiles obtained for different values of k factor is presented. For experiments in vivo on the carotid, the authors used a data acquisition system with a sampling frequency of 500 kHz and a dynamic range of 12 bits. The authors compare axial velocity profiles in systolic and diastolic phases obtained for different single channel RF sampling factors.
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采用单通道射频采样的多门脉冲多普勒系统的体积血流速度测量
介绍了一种新型单通道射频采样多普勒系统的性能。在多普勒成像系统中,传统的正交法必须使用至少两个相同的并行解调通道来重建多门分析多普勒信号。然而,该系统存在硬件复杂性和信道间(增益和相位)不平衡的问题。为了减少这些问题,作者在单通道上利用欠采样实现了多门脉冲多普勒系统。它需要4f/sub a/采样频率和12位a/ D转换器。提出的“单通道射频采样”方法旨在将所需的采样频率按比例降低到4f/sub //(2k+1)。为了显示因子k对测量的影响,作者比较了不同序列间延迟时间(k=0到10)下在体外和体内获得的速度分布。作者采用了4mhz中心频率换能器。在体外实验中,在幻影多普勒系统上,根据因子k计算了血管内的轴向和体积速度分布,并进行了比较。给出了超声光束与流轴方向夹角和流体粘度对不同k因子值下速度分布的影响。在颈动脉活体实验中,作者使用了采样频率为500khz,动态范围为12位的数据采集系统。作者比较了不同单通道射频采样因子在收缩期和舒张期的轴向速度分布。
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